- Title
- Tensile strength and shear strength properties of the adhering layer of granules in iron ore sintering
- Creator
- Zhou, M.; Zhou, H.; Honeyands, T.
- Relation
- Iron Ore 2017. Iron Ore 2017: Building Resilience, 24-26 July 2017, Perth, Australia (Perth, W.A. 24-26 July, 2017) p. 117-122
- Publisher
- Australasian Institute of Mining and Metallurgy
- Resource Type
- conference paper
- Date
- 2017
- Description
- In iron ore sintering, packing the granules onto the sintering strand to form a porous bed with optimum permeability is a complex dynamic process. The packed bed voidage is the key factor determining the flame front speed and the final sinter productivity and quality. Previous studies have found that granules are soft quasi-particles with a typical structure of nuclei with an adhering fines layer. The deformation of the adhering layer greatly affects the bed voidage during packing, which is related to the strength of the adhering layer and the force exerted on the granules. In this study, tablets simulating the particle size distribution in the adhering layer of granules were made for four single ore blends. Both the tensile strength and shear strength properties of these tablets were investigated as a function of water content by the uniaxial compression test and direct shear test respectively. The results of compression tests show that the adhering layer becomes weaker and more compliant with the increase of moisture. The most porous ore has a more rigid adhering layer than the other three tested iron ores at any given moisture content. In direct shear tests, the internal friction angle of the adhering layer ranged from 31°to 37°and varied little with the moisture content or ore type. The cohesion constant is around 1 kPa and is quite small compared to the stress applied to the granules during packing. Combined with the results of granulation and packing experiments, the influence of the adhering fines layer deformation on the degree of voidage loss is specifically discussed.
- Subject
- iron ore; sintering; granules; shear strength
- Identifier
- http://hdl.handle.net/1959.13/1402616
- Identifier
- uon:35048
- Identifier
- ISBN:9781925100587
- Language
- eng
- Full Text
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